Current Progress and Future Directions of Enzyme Technology in Food Nutrition: A Comprehensive Review of Processing, Nutrition, and Functional Innovation
Yu-Yang Yao, Yuan Ye, Ke Xiong, Shu-Can Mao, Jia-Wen Jiang, Yi-Qiang Chen, Xiang Li, Han-Bing Liu, Lin-Chang Liu, Bin Cai, Shuang Song

TL;DR
This review explores how enzymes are used in food processing to improve texture, nutrition, and safety, while highlighting future research needs.
Contribution
The paper provides a comprehensive overview of enzyme applications in food processing and identifies key research gaps for future development.
Findings
Enzymes like transglutaminase and laccase improve texture and stability in dairy and plant-based products.
Enzymatic hydrolysis enhances bioavailability and reduces antinutritional factors in food.
Enzyme-directed production of bioactive peptides and functional compounds supports functional food innovation.
Abstract
Enzyme technology, characterized by high efficiency, environmental compatibility, and precise controllability, has become a pivotal biocatalytic approach for quality enhancement and nutritional improvement in modern food industries. This review summarizes recent advances and underlying mechanisms of enzyme applications in food processing optimization, nutritional enhancement, and functional food development. In terms of process optimization, enzymes such as transglutaminase, laccase, and peroxidase enhance protein crosslinking, thereby markedly improving the texture and stability of dairy products, meat products, and plant-based protein systems. Proteases and lipases play essential roles in flavor development, maturation, and modulation of sensory attributes. From a nutritional perspective, enzymatic hydrolysis significantly improves the bioavailability of proteins, minerals, and…
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Taxonomy
TopicsProtein Hydrolysis and Bioactive Peptides · Enzyme Production and Characterization · Proteins in Food Systems
